Abstract

As a key mediator of integrin signaling, focal adhesion kinase (FAK) regulates cellular responses to extracellular matrix interactions. Amplification and overexpression of FAK have been observed in aggressive human cancers including breast cancer. FAK has been implicated in multiple steps in carcinogenesis including tumor growth, metastasis and angiogenesis. We now demonstrate the importance of FAK in breast cancer stem cell function, and the reduction of cancer stem cell function by the selective FAK inhibitors VS-4718 and VS-5095. VS-4718 and VS-5095 are potent and selective FAK inhibitors which were optimized following high throughput screening. Both VS-4718 and VS-5095 block fibronectin-stimulated FAK autophosphorylation of Tyr397 with low nanomolar cellular potency and are highly selective for FAK among a panel of protein kinases. Consistent with their mechanism of action, VS-4718 and VS-5095 showed greater inhibitory potency on the growth of multiple cancer cell lines in 3D matrigel culture as compared to conventional 2D culture. To determine if FAK plays a role in the biology of breast cancer stem cells in addition to its reported function in normal mammary stem cell biology, the effects of these FAK inhibitors were characterized using two different in vitro assays. It was previously demonstrated that immortalized mammary epithelial cells (HMLEs) driven to undergo epithelial to mesenchymal transition (EMT) by knockdown of E-cadherin (HMLE-shECad) exhibit many of the characteristics of cancer stem cells and can be used to identify agents that selectively target cancer stem cells. VS-4718 exhibited 25-fold greater potency against proliferation of mesenchymal HMLE-shECad cells as compared to epithelial HMLE-shGFP control cells, suggesting preferential effects on breast cancer stem cells. Furthermore, pre-treatment of SUM159 triple negative breast cancer cells with VS-5095 in matrigel attenuated secondary tumorsphere formation, suggesting that FAK is important for the self-renewal function of breast cancer stem cells. The role of FAK in breast cancer stem cell renewal was further corroborated by the observation that FAK shRNA inhibited tumorsphere formation by SUM159 cells. The in vivo efficacy of the FAK inhibitor VS-5095 was evaluated in the MDA-MB-231 human triple negative breast cancer xenograft model. By oral administration, VS-5095 induced significant dose-dependent tumor growth inhibition. In summary, these results demonstrate the importance of FAK in the self-renewal of breast cancer stem cells, and support the clinical development of the selective FAK inhibitors VS-4718 and VS-5095 to target breast cancer stem cells for the treatment of triple negative breast cancer.